JP5878087B2 - Liquid crystal display - Google Patents

Description

  The present invention relates to a liquid crystal display device.

  In a display device including a sidelight type backlight, light incident on an end face of a light guide plate travels inside the light guide plate and is emitted from the surface (Patent Document 1). An LED (Light Emitting Diode) is generally used as a light source for the backlight. The light source is mounted on the wiring board and arranged to face the end face of the light guide plate.

JP 2007-42552 A

  In recent years, with the demand for high-brightness liquid crystal display devices, the number of light sources of backlights has increased, and there is a need to improve heat dissipation. In particular, the structure in which the wiring board on which the light source is mounted is attached to the frame is not a structure for releasing the heat transmitted from the light source to the frame, so a countermeasure is required.

  An object of this invention is to improve the heat dissipation of a backlight.

  (1) A liquid crystal display device according to the present invention includes a liquid crystal display panel, a sidelight-type backlight used as a surface light source of the liquid crystal display panel, the liquid crystal display panel and a frame that supports the backlight, A surface mount type light-emitting component that emits light in an upper surface direction, and a wiring board on which the light-emitting component is mounted, the housing having a housing, a metal block interposed between the frame and the housing And a light guide plate disposed so as to overlap the liquid crystal display panel, wherein the frame has a first portion that supports the light guide plate and a second portion that faces the end surface of the light guide plate with a space therebetween And a third part that supports the liquid crystal display panel, and the wiring board is formed on the second part so that the light from the light emitting component is incident on the end face of the light guide plate. Ri attached, the metal block, characterized in that it is fixed to the opposite surface and the housing and wherein the wiring board is pasted surface of the second portion of the frame. According to the present invention, the heat transmitted from the light emitting component to the wiring board is released from the frame to the housing, so that the heat dissipation of the backlight can be enhanced.

  (2) In the liquid crystal display device described in (1), the frame may be formed by bending a metal plate having a uniform thickness.

  (3) In the liquid crystal display device according to (2), the frame extends and bends from the first portion supporting the light guide plate in a direction away from the light guide plate in a direction facing the light guide plate. The light guide plate may be bent so as to extend in a direction in which the end face faces and to reach the second portion.

  (4) In the liquid crystal display device described in any one of (1) to (3), the metal block may be in contact with the second portion of the frame.

  (5) In the liquid crystal display device described in any one of (1) to (4), the metal block may be in contact with the casing.

  (6) In the liquid crystal display device according to any one of (1) to (4), the frame includes an outer frame that supports a back surface of the liquid crystal display panel and supports a front surface of the liquid crystal display panel. In addition, a part of the outer frame may be sandwiched between the metal block and the housing.

1 is a front view of a liquid crystal display device according to an embodiment of the present invention. It is the II-II sectional view taken on the line of the liquid crystal display device shown in FIG. It is a top view which shows the wiring board with which several light emitting components were mounted. It is a figure which shows the modification of embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a front view of a liquid crystal display device according to an embodiment of the present invention. FIG. 2 is a cross-sectional view of the liquid crystal display device shown in FIG. 1 taken along the line II-II.

  The liquid crystal display device includes a liquid crystal display panel 10. The liquid crystal display panel 10 includes a pair of substrates 12 and 14 made of glass or the like and a liquid crystal material (not shown) sandwiched therebetween, and has polarizing plates (not shown) outside the pair of substrates 12 and 14, respectively. The substrate 12 protrudes from the substrate 14. A flexible wiring substrate 16 is attached to the surface of the substrate 12 that protrudes from the substrate 14 on the surface facing the substrate 14. On the flexible wiring board 16, an integrated circuit chip 18 incorporating a driver circuit for driving a liquid crystal material is mounted.

  The liquid crystal display device includes a sidelight type backlight 20 that is used as a surface light source of the liquid crystal display panel 10. The backlight 20 includes a light guide plate 22 disposed so as to overlap the liquid crystal display panel 10. The light guide plate 22 is for converting the light of the point light source into a surface light source and irradiating the liquid crystal display panel 10.

  The backlight 20 includes a surface-mounted light emitting component 24 that emits light in the upper surface direction. The light emitting component 24 is a point light source such as an LED (Light Emitting Diode). A point light source has a light emitting area narrower than that of a surface light source. The light emitting component 24 emits white light. The light emitting component 24 is mounted on a wiring board 26 such as an FPC (Flexible Printed Circuit). Light is emitted from the light emitting component 24 in the direction in which the surface of the wiring board 26 on which the light emitting component 24 is mounted faces. Light enters the end face of the light guide plate 22 from the light emitting component 24. The end portion of the light guide plate 22 is disposed next to the light emitting component 24 so that light from the light emitting component 24 enters.

  FIG. 3 is a plan view showing a wiring board 26 on which a plurality of light emitting components 24 are mounted. The wiring substrate 26 includes a base substrate 28 made of resin or a resin-containing material, and a wiring pattern 30 formed on the base substrate 28. The light emitting component 24 is electrically connected to the wiring pattern 30. Since a region for forming the wiring pattern 30 is necessary, the wiring substrate 26 is wider than the width of the light emitting component 24. An integrated circuit chip 32 for controlling blinking of the light emitting component 24 is mounted on the wiring board 26.

  The backlight 20 includes a light diffusion sheet 34 superimposed on the surface of the light guide plate 22. The light diffusion sheet 34 is disposed on the light guide plate 22 (on the side close to the liquid crystal display panel 10). The light diffusion sheet 34 is disposed from the effective area of the light guide plate 22 to the light incident area. Since the light diffusing sheet 34 has a weak light diffusing action, the light is transmitted through the light diffusing sheet 34, so that the influence on the light distribution is weakened. A prism sheet 36 is disposed on the light diffusion sheet 34 (on the side close to the liquid crystal display panel 10). By transmitting the light through the prism sheet 36, the light can be condensed in the front and the front luminance can be improved. The light diffusion sheet 34 and the prism sheet 36 are collectively called an optical sheet. A reflective sheet 38 is disposed under the light guide plate 22 (on the side opposite to the liquid crystal display panel 10).

  The liquid crystal display device includes a frame 40 that supports the backlight 20. The frame 40 is made of metal, and is formed by bending a metal plate having a uniform thickness. The frame 40 includes a first portion 42 that supports the light guide plate 22. The first portion 42 is disposed so as to face the back surface of the light guide plate 22 (the surface opposite to the liquid crystal display panel 10). The frame 40 includes a second portion 44 that faces the end surface of the light guide plate 22 with a space therebetween. The frame 40 extends from the first portion 42 that supports the light guide plate 22 in a direction away from the light guide plate 22 (downward in FIG. 2) in a direction facing the light guide plate 22, and is bent to face the end surface of the light guide plate 22. It extends in the direction (right direction in FIG. 2) and bends to reach the second portion 44. The wiring board 26 is attached to the second portion 44 so that light from the light emitting component 24 enters the end face of the light guide plate 22. You may use the adhesive material (for example, double-sided tape) which is not shown in figure for the pasting. The frame 40 includes a third portion 46 for supporting the liquid crystal display panel 10. The first portion 42, the second portion 44, and the third portion 46 are integrated.

  The display device has an inner frame 48. The inner frame 48 is a resin molded product and is also called a mold. The inner frame 48 is interposed between the third portion 46 of the frame 40 and the liquid crystal display panel 10. Further, an elastic body 50 (for example, rubber) is interposed between the inner frame 48 and the liquid crystal display panel 10. The elastic body 50 is affixed to the back surface of the liquid crystal display panel 10 and absorbs an impact when the liquid crystal display panel 10 contacts the inner frame 48. The frame 40 supports the back surface of the liquid crystal display panel 10 via the inner frame 48 and the elastic body 50.

  The periphery of the front surface (image display surface) of the liquid crystal display panel 10 is supported by the outer frame 52. That is, the peripheral edge of the liquid crystal display panel 10 is sandwiched between the inner frame 48 and the outer frame 52.

  The liquid crystal display device has a housing 54. A metal block 56 is interposed between the frame 40 and the housing 54. Since the metal block 56 is interposed, the frame 40 can be prevented from being deformed even if the housing 54 is distorted. Thereby, since deformation of the wiring board 26 can be suppressed, no stress is generated in the light emitting component 24 or the joint portion between the light emitting component 24 and the wiring pattern 30 of the wiring board 26.

  The housing 54 and the metal block 56 are fixed by screws 58, and the metal block 56 is in contact with the housing 54. The housing 54 is reinforced by the metal block 56. The metal block 56 is fixed to the surface of the second portion 44 of the frame 40 opposite to the surface on which the wiring board 26 is attached and the housing 54. The metal block 56 is in contact with the second portion 44 of the frame 40 but is not in contact with the outer frame 52.

  The housing 54 covers the frame 40 and the metal block 56 on the back side of the liquid crystal display panel 10. A space is formed between the frame 40 and the housing 54, and an opening 60 is formed in the housing 54 to communicate this space with the outside. A fan 62 is attached to face the opening 60 of the housing 54, and the heat inside the housing 54 can be forcibly discharged by the fan 62.

  According to the present embodiment, since the metal block 56 releases heat transmitted from the light emitting component 24 to the wiring board 26 from the frame 40 to the housing 54, the heat dissipation of the backlight 20 can be enhanced. Note that the fan 62 is an additional member for improving heat dissipation, and therefore may be omitted if sufficient heat dissipation is obtained by providing the metal block 56.

  FIG. 4 is a diagram illustrating a modification of the embodiment. In this example, a part of the outer frame 152 is sandwiched between the metal block 156 and the housing 154. By fastening the screw 158, the outer frame 152 is sandwiched between the housing 154 and the metal block 156 and is in contact with both. According to this, since the outer frame 152 also contributes to heat dissipation, it is further preferable.

  The present invention is not limited to the above-described embodiments, and various modifications can be made. For example, the configuration described in the embodiment can be replaced with substantially the same configuration, a configuration that exhibits the same operational effects, or a configuration that can achieve the same purpose.

  DESCRIPTION OF SYMBOLS 10 Liquid crystal display panel, 12 board | substrate, 14 board | substrate, 16 flexible wiring board, 18 integrated circuit chip, 20 backlight, 22 light guide plate, 24 light emitting component, 26 wiring board, 28 base board, 30 wiring pattern, 32 integrated circuit chip, 34 light diffusion sheet, 36 prism sheet, 38 reflection sheet, 40 frame, 42 first part, 44 second part, 46 third part, 48 inner frame, 50 elastic body, 52 outer frame, 54 housing, 56 metal block, 58 screws, 60 openings, 62 fans, 152 outer frame, 154 housing, 156 metal block, 158 screws.

Claims (4)

A liquid crystal display panel;
A sidelight-type backlight used as a surface light source of the liquid crystal display panel;
A frame that supports the back surface of the liquid crystal display panel and the backlight;
An outer frame that supports the front surface of the liquid crystal display panel;
The body,
A metal block interposed between the frame and the housing;
Have
A portion of the outer frame is sandwiched between the metal block and the housing;
The backlight includes a surface-mounted light-emitting component that emits light in an upper surface direction, a wiring board on which the light-emitting component is mounted, and a light guide plate disposed so as to overlap the liquid crystal display panel,
The frame integrally includes a first portion that supports the light guide plate, a second portion that faces the end surface of the light guide plate with a space therebetween, and a third portion that supports the liquid crystal display panel,
The wiring board is attached to the second portion so that the light from the light emitting component is incident on the end face of the light guide plate,
The liquid crystal display device, wherein the metal block is fixed to a surface opposite to a surface of the second portion of the frame on which the wiring board is attached and the housing. The liquid crystal display device according to claim 1,
The liquid crystal display device, wherein the frame is formed by bending a metal plate having a uniform thickness. The liquid crystal display device according to claim 2,
The frame extends from the first portion that supports the light guide plate in a direction away from the light guide plate in a direction facing the light guide plate, bends and extends in a direction in which the end surface of the light guide plate faces, A liquid crystal display device which is bent so as to reach two parts. In the liquid crystal display device according to any one of claims 1 to 3,
The liquid crystal display device, wherein the metal block is in contact with the second portion of the frame.

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